Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration

This European Standard specifies the use of different metrics for the measurement of exposure by inhalation of NOAA during a basic assessment and a comprehensive assessment, respectively, as described in EN 17058 [1].
This document demonstrates the implications of choice of particle metric to express the exposure by inhalation to airborne NOAA, e.g. released from nanomaterials  and present the principles of operation, advantages and disadvantages of various techniques that measure the different aerosol metrics.
Potential problems and limitations are described and need to be addressed when occupational exposure limit values might be adopted in the future and compliance measurements will be carried out.
Specific information is mainly given for the following metrics/measurement techniques:
-   Number/Condensation Particle Counters by optical detection;
-   Number size distribution/differential mobility analysing systems by electrical mobility;
-   Surface area/electrical charge on available particle surface;
-   Mass/chemical analyses (e.g. Inductively Coupled Plasma atomic Mass Spectrometry (ICP-MS), X-Ray Fluorescence (XRF)) on size-selective samples (e.g. by impaction or diffusion).
This document is intended for those responsible for selecting measurement methods for occupational exposure to airborne NOAA.

Exposition am Arbeitsplatz - Messung der inhalativen Exposition gegenüber Nanoobjekten und deren Aggregaten und Agglomeraten - Zu verwendende Metriken wie Anzahlkonzentration, Oberflächenkonzentration und Massenkonzentration

Diese Europäische Norm legt die Anwendung verschiedener Metriken für die Messung der Exposition durch Einatmen gegenüber NOAA während einer grundlegenden und einer umfassenden Beurteilung nach EN 17058 [1] fest.
Dieses Dokument demonstriert die Auswirkungen der Wahl der Partikelmetrik, um die Exposition durch Einatmen gegenüber luftgetragenen NOAA zum Ausdruck zu bringen, die z. B. aus Nanomaterialien  frei¬gesetzt werden, und zeigt die Arbeitsweisen sowie die Vor- und Nachteile der verschiedenen Techniken auf, mit denen die verschiedenen Aerosolmetriken gemessen werden.
Mögliche Probleme und Einschränkungen werden beschrieben und sind zu beachten, wenn die Grenz-werte der maximalen Arbeitsplatzkonzentration künftig angenommen werden könnten und Messungen in Bezug auf deren Einhaltung durchgeführt werden.
Besondere Informationen werden vor allem für die folgenden Metriken/Messverfahren gegeben:
-   Anzahlkonzentration/Kondensationspartikelzähler durch optischen Nachweis;
-   Anzahlgrößenverteilung/differentielle Mobilitätsanalysesysteme durch elektrische Mobilität;
-   Oberfläche/elektrische Ladung auf der zur Verfügung stehenden Partikeloberfläche;
-   Masse/chemische Analysen (z. B. durch Massenspektrometrie mit induktiv gekoppeltem Plasma [en: Inductively Coupled Plasma atomic Mass Spectrometry, ICP MS], Röntgenfluoreszenzanalyse [en: X Ray Fluorescence, XRF]) an größenselektiven Proben (z. B. durch Impaktion oder Diffusion).
Dieses Dokument ist für diejenigen vorgesehen, die für die Auswahl von Messverfahren für die berufsbedingte Exposition gegenüber NOAA verantwortlich sind.

Exposition sur les lieux de travail - Mesurage de l'exposition par inhalation de nano-objets et de leurs agrégats et agglomérats - Métriques à utiliser telles que concentration en nombre, concentration en surface et concentration en masse

La présente Norme européenne spécifie l’utilisation de différentes métriques pour le mesurage de l’exposition par inhalation de NOAA lors d'une évaluation de base et d'une évaluation complète, respectivement, comme décrit dans l’EN 17058 [1].
Le présent document démontre les conséquences du choix d'une métrique de particules pour exprimer l'exposition par inhalation aux NOAA en suspension dans l'air, par exemple du fait de la mise en suspension de nanomatériaux  ), et présente les principes de fonctionnement, les avantages et les inconvénients de diverses techniques permettant de mesurer les différents paramètres des aérosols.
Les problèmes et limites potentiels sont décrits et doivent être traités lorsque des valeurs limites d'exposition professionnelle sont susceptibles d'être adoptées dans le futur et des mesures de conformités réalisées.
Des informations spécifiques sont données essentiellement pour les principales métriques/techniques de mesure suivantes :
-   nombre/Compteurs de Particules à Condensation par détection optique ;
-   distribution granulométrique en nombre/systèmes d'analyse différentielle de mobilité électrique ;
-   surface/charge électrique sur la surface disponible des particules ;
-   masse/analyses chimiques (par exemple spectrométrie de masse à plasma couplé par induction (ICP-MS), fluorescence X (XRF)) d'échantillons sélectifs en taille (par exemple par impaction ou diffusion).
Le présent document s'adresse aux personnes responsables du choix des méthodes de mesure de l'exposition professionnelle aux NOAA en suspension dans l'air.

Izpostavljenost na delovnem mestu - Merjenje izpostavljenosti pri vdihavanju nanopredmetov ter njihovih agregatov in aglomeratov - Uporaba metrik, kot so številčna koncentracija, masna koncentracija in koncentracija površine

Ta evropski standard podaja smernice glede vplivov na izbiro metrike delcev za izražanje izpostavljenosti nanoaerosolom, predstavlja načela delovanja, prednosti in slabosti različnih tehnik, ki merijo te metrike aerosolov, ter opisuje morebitne težave in omejitve.

General Information

Status
Published
Publication Date
13-Nov-2018
Withdrawal Date
30-May-2019
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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.UãLQHExposition am Arbeitsplatz - Messung der inhalativen Exposition gegenüber Nanoobjekten und deren Aggregaten und Agglomeraten - Zu verwendende Metriken wie Anzahlkonzentration, Oberflächenkonzentration und MassenkonzentrationExposition sur les lieux de travail - Mesurage de l'exposition par inhalation de nano-objets et de leurs agrégats et agglomérats - Métriques à utiliser telles que concentration en nombre, concentration en surface et concentration en masseWorkplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration13.040.30Kakovost zraka na delovnem mestuWorkplace atmospheresICS:Ta slovenski standard je istoveten z:EN 16966:2018SIST EN 16966:2019en01-januar-2019SIST EN 16966:2019SLOVENSKI
STANDARD
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 16966
November
t r s z ICS
s uä r v rä u r English Version
Workplace exposure æ Measurement of exposure by inhalation of nanoæobjects and their aggregates and agglomerates æ Metrics to be used such as number concentrationá surface area concentration and mass concentration Exposition sur les lieux de travail æ Mesurage de l 5exposition par inhalation de nanoæobjets et de leurs agrégats et agglomérats æ Métriques à utiliser telles que concentration en nombreá concentration en surface et concentration en masse
Exposition am Arbeitsplatz æ Messung der inhalativen Exposition gegenüber Nanoobjekten und deren Aggregaten und Agglomeraten æ Zu verwendende Metriken wie Anzahlkonzentrationá Oberflächenkonzentration und MassenkonzentrationThis European Standard was approved by CEN on
t y August
t r s zä
egulations which stipulate the conditions for giving this European Standard the status of a national standard without any alterationä Upætoædate lists and bibliographical references concerning such national standards may be obtained on application to the CENæCENELEC Management Centre or to any CEN memberä
translation under the responsibility of a CEN member into its own language and notified to the CENæCENELEC Management Centre has the same status as the official versionsä
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CEN-CENELEC Management Centre:
Rue de la Science 23,
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t r s z CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Membersä Refä Noä EN
s x { x xã t r s z ESIST EN 16966:2019

Page European foreword . 5 Introduction . 6 1 Scope . 7 2 Normative references . 7 3 Terms and definitions . 7 4 Symbols and abbreviations . 12 5 Relevance of ISO definition for assessing health impacts of airborne NOAA . 13 6 Particle metrics and their selection . 13 6.1 Workplace aerosols consisting of NOAA . 13 6.2 NOAA metrics . 14 6.3 NOAA number metric, NOAA surface area metric and NOAA mass metric . 14 6.4 Occupational exposure limits for NOAA . 15 7 Exposure assessment strategy based on EN 17058 . 15 7.1 General . 15 7.2 Basic assessment according to EN 17058 . 16 7.3 Comprehensive assessment according to EN 17058 . 16 7.4 Personal samplers versus static samplers/monitors . 17 8 Determination of exposure . 17 8.1 General . 17 8.2 Introductory remarks regarding the measurement of particle metrics . 18 8.2.1 General . 18 8.2.2 Continuous measurement and display (using a monitor) or post-sampling analytical determination of a NOAA metric . 19 8.2.3 Calculation/estimation of a NOAA metric based on the size-resolved NOAA distribution . 20 8.2.4 Calculation of NOAA mass ensemble metric based on the size-resolved NOAA mass metric . 20 8.3 Information of the measurement of particle metrics . 20 Annex A (informative)
Source domains of workplace exposure scenarios for engineered/ manufactured NOAA . 21 Annex B (informative)
Evolution of available instrumental technology since the publication of ISO/TR 27628 and ISO/TR 12885 . 22 Annex C (informative)
Direct-reading instruments for measuring the NOAA ensemble number metric . 23 C.1 General . 23 C.2 Condensation particle counter . 23 C.2.1 Principle of operation . 23 C.2.2 Assumptions, limits and potential problems . 23 C.2.3 Accuracy and comparability according to EN 16897 . 24 SIST EN 16966:2019

Monitors for measuring the NOAA ensemble surface area metric . 26 D.1 General . 26 D.2 Assumptions, limits and potential problems . 26 D.3 Accuracy and comparability . 28 Annex E (informative)
Samplers for determining the NOAA mass (chemical element) metric by off-line analysis . 29 E.1 General . 29 E.2 Ensemble of all sampled particles analysed . 29 E.2.1 General . 29 E.2.2 Assumptions, potential problems and comparability . 30 E.3 Individual particles analysed . 30 E.3.1 General . 30 E.3.2 Assumptions, potential problems and comparability . 30 Annex F (informative)
Monitors for measuring the size-resolved NOAA number metric (number-weighted electric mobility equivalent diameter distribution) . 31 F.1 General . 31 F.2 DMAS of various designs . 31 F.2.1 General . 31 F.2.2 Assumptions, potential problems and comparability . 31 F.2.3 International Standards on the use of DMAS . 32 Annex G (informative)
Samplers for determining the size-resolved NOAA mass metric (mass-weighted diffusive equivalent diameter distribution) by off-line analysis . 33 G.1 General . 33 G.2 Diffusion spectrometers . 33 G.2.1 General . 33 G.2.2 Assumptions and potential problems . 33 Annex H (informative)
Samplers for determining the size-resolved NOAA mass (chemical element/ compound) metric (mass-weighted aerodynamic equivalent diameter distribution) by off-line analysis. 34 H.1 General . 34 H.2 Cascade impactors . 34 H.2.1 General . 34 H.2.2 Assumptions and potential problems . 34 SIST EN 16966:2019

Monitors for determining the size-resolved NOAA number metric (number-weighted aerodynamic equivalent diameter distribution) . 35 I.1 General . 35 I.2 Assumptions and potential problems . 35 Annex J (informative)
Number-weighted minimum Feret diameter distribution of primary particles of aggregates and constituent parts of aggregates . 36 J.1 Distinction between a NOAA and a non-NOAA particle . 36 J.2 Aggregates and agglomerates . 36 J.3 Sample analysis in an electron microscop
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